CN218098843U - Novel ELIASA of touch-control formula - Google Patents

Abstract

The utility model discloses a novel touch-control type ELIASA, which comprises a microcontroller, a touch screen, control software, a control circuit, a driving circuit, an XY displacement mechanism, a light source system, a filter set, a photoelectric detector, a power module, a microporous plate, a light path component, optical fibers, a sensor, a case, a wireless transmission module and a mobile terminal, wherein the microcontroller is preassembled with a Linux system and can be adaptively provided with the control software of the ELIASA; the touch screen can display a control software interface of the microplate reader and support the operation of the touch screen; the control software can save the set parameters of the user and can lead the saved set parameters to automatically start the measurement work of the microplate reader, and the control of the XY displacement mechanism can be realized. The automatic analysis and display capability of the microplate reader is realized, so that the problem that the microplate reader is inconvenient to use due to the fact that the microplate reader needs to be connected to a computer to realize data acquisition, analysis and display when being used is solved.

Description

Novel ELIASA of touch-control formula

Technical Field

The utility model relates to a ELIASA technical field specifically is a novel ELIASA of touch-control formula.

Background

The microplate reader is a basic instrument for experimental biology and bioengineering, is also called a microplate detector, can realize the measurement of multiplexing spectral photometric parameters, and has a basic working principle very similar to a main structure and a spectrophotometer;

for example, patent granted under publication No. CN207730736U (a new microplate reader): the microplate reader comprises a microplate reader body, wherein a first groove is processed in the center of the front surface of the microplate reader body, sliding grooves are processed in the left surface and the right surface of the first groove, a rectangular plate is arranged on the lower surface of the first groove, strip-shaped sliding blocks are arranged on the left surface and the right surface of the rectangular plate, each strip-shaped sliding block slides in the corresponding sliding groove, a second groove is processed on the upper surface of the rectangular plate, third grooves are processed on the left surface and the right surface of the second groove, a first telescopic rod with opposite telescopic ends is arranged in each third groove, four grooves are processed on the front surface and the rear surface of the second groove, a controller is arranged on the lower surface of the rectangular cavity, and the controller is electrically connected with each electric telescopic rod;

although the prior art is convenient to clean the rectangular plate and can adapt to pore plates with different sizes, the prior art is lack of a collection analysis and display component, so that the prior art needs to be connected to a computer to realize the collection analysis and display of data when the microplate reader is used, the use of the instrument is very inconvenient, if the instrument is used in a laboratory, collection software and the like need to be installed again, and the use cost of a user is increased; therefore, a novel touch-control type microplate reader is urgently needed to be developed in the market to help people solve the existing problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel ELIASA of touch-control formula to the collection analysis and the demonstration that need be connected to the computer realization data when using the ELIASA that propose among the above-mentioned background art of solution, this makes the instrument use very inconvenient problem.

In order to achieve the above purpose, the utility model provides a following technical scheme: a novel touch control type microplate reader comprises a microcontroller, a touch control screen, control software, a control circuit, a drive circuit, an XY displacement mechanism, a light source system, a filter set, a photoelectric detector, a power supply module, a microporous plate, a light path component, an optical fiber, a sensor, a case, a wireless transmission module and a mobile terminal,

the microcontroller is preloaded with a Linux system and can be matched with control software of the microplate reader;

the touch screen can display a control software interface of the microplate reader and support the operation of the touch screen;

the control software can save the set parameters of the user and can guide the saved set parameters to automatically start the measurement work of the microplate reader, can control the XY displacement mechanism, is matched with the sensor to calibrate the position of the XY displacement mechanism, and can analyze, display and maintain the acquired data.

Preferably, the control circuit can control the driving circuit by receiving an instruction sent by the microcontroller;

the driving circuit can realize the control of the XY displacement mechanism;

the XY displacement mechanism can move and align different hole sites of the microporous plate to a light path, so that photometric measurement of a sample is realized;

the light source system can provide 400-700nm visible light, so that the illumination requirement on a sample is met;

the optical filter group can filter the light source system into monochromatic light, and the light penetrating through the sample is filtered at the photoelectric detector end;

the photoelectric detector can convert the optical signal into an electric signal and perform corresponding amplification and filtering processing;

the power supply module can supply power to the microcontroller, the touch screen, the control circuit, the driving circuit, the light source system and the sensor;

the micropore plate is used for placing samples required by the test;

the light path component and the optical fiber are used for guiding light which penetrates through the sample into the photoelectric detector;

the sensor is used for detecting whether the XY displacement mechanism reaches a specified position;

the wireless transmission module can transmit data information to the mobile terminal.

Preferably, the case connects the microcontroller, the touch screen, the control circuit, the driving circuit, the XY displacement mechanism, the light source system, the filter set, the photodetector, the power module, the micro-porous plate, the light path component, the optical fiber, the sensor and the wireless transmission module, thereby forming a whole structure.

Preferably, different excitation light wavelengths are set through the control software, and different filter sets are selected through the control structure inside, so that photometric measurement of different samples is realized.

Preferably, the set parameters can be used for controlling the light source system and the control circuit by feeding back the input of the touch screen to the control software.

Preferably, the position of a part of the micropore plate is selected for measurement, and the position is stored as a parameter and can be used after being exported next time.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a setting through built-in microcontroller and touch screen realization ELIASA parameter, and the collection analysis and the display function of data, thereby realize the visual control of ELIASA, the touch screen does simultaneously show the signal result of real-time collection and carries out the icon and draws work, the audio-visual acquisition signal of convenience of customers, and can preserve the parameter that the user has set up, convenience of customers heavy load calls, and then realize the complete machine integration of equipment, and provide great convenience to the operation of equipment and solve, can realize leading-in system with the parameter of preserving simultaneously through built-in control software, the automatic micropore board control motion and the collection function that begins the ELIASA, the convenience that the ELIASA used has been improved, the laboratory use of changing has been solved, must install the problem of gathering software again, the flexibility that the ELIASA used is improved, user use cost is reduced.

2. The utility model discloses a through the mobile terminal who sets up, wherein mobile terminal is the user equipment of hand-carrying to going out in some circumstances at the user, sending and making other people use the ELIASA to examine time measuring, through the terminal equipment who carries with oneself, the user can conveniently know and detect data information, has improved the practicality that the ELIASA used.

Drawings

Fig. 1 is a schematic diagram of a novel touch-control microplate reader of the present invention;

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1, the present invention provides an embodiment: a novel touch-control type microplate reader comprises a microcontroller, a touch screen, control software, a control circuit, a driving circuit, an XY displacement mechanism, a light source system, a filter set, a photoelectric detector, a power supply module, a microporous plate, a light path assembly, an optical fiber, a sensor, a case, a wireless transmission module and a mobile terminal, wherein the microcontroller is preassembled with a Linux system and can be adapted to the control software of the microplate reader; the touch screen can display a control software interface of the microplate reader and support the operation of the touch screen, so that the convenience of the use of the microplate reader is improved; the control software can save the set parameters of the user and can lead the saved set parameters to automatically start the measurement work of the microplate reader, can realize the control of the XY displacement mechanism, is matched with the sensor to carry out position calibration on the XY displacement mechanism, can analyze, display and maintain the acquired data, and further can carry out detection on samples at different positions by driving the XY displacement mechanism when detecting a plurality of samples, thereby improving the practicability.

Referring to fig. 1, the control circuit can control the driving circuit by receiving an instruction sent by the microcontroller, so that the convenience of using the microplate reader is improved; the driving circuit can realize the control of the XY displacement mechanism; the XY displacement mechanism can move and align different hole sites of the microporous plate to a light path, so that photometric measurement of a sample is realized, the moving convenience of the microporous plate is improved, and the detection work of the sample is facilitated; the light source system can provide 400-700nm visible light, so that the illumination requirement on a sample is met; the optical filter group can filter the light source system into monochromatic light, and the light penetrating through the sample is filtered at the photoelectric detector end; the photoelectric detector can convert optical signals into electrical signals and perform corresponding amplification and filtering processing, so that the detection accuracy is improved, when a sample is detected, light waves emitted by the light source system are changed into a collimated monochromatic light source through optical filters and other optical devices, the light source is focused on a sample to be detected of the plastic micropore plate, one part of the light waves of the light source system is absorbed by the sample, the other part of the light waves is transmitted to the photoelectric detector in the system through the sample, the photoelectric detector converts the optical signals with different light intensities transmitted by different samples to be detected into the electrical signals, and the electrical signals are amplified through the circuit, so that the processing and calculation of detected information are facilitated; the power supply module can realize power supply to the microcontroller, the touch screen, the control circuit, the driving circuit, the light source system and the sensor; the micro-porous plate is used for placing samples required by the test, is arranged as a transparent plastic plate and is provided with a plurality of hole sites, and a 24-hole plate or a 96-hole plate is commonly used; the light path component and the optical fiber are used for guiding light which penetrates through the sample into the photoelectric detector; the sensor is used for detecting whether the XY displacement mechanism reaches a specified position, so that the detection accuracy is improved; the wireless transmission module can transmit data information to the mobile terminal, and the mobile terminal is set as a portable device for a user, such as: cell-phone, flat board to send at the user and make other people use the ELIASA to examine time measuring, the user can conveniently know and detect data information, has improved the practicality that the ELIASA used.

Referring to fig. 1, the case connects the microcontroller, the touch screen, the control circuit, the driving circuit, the XY displacement mechanism, the light source system, the filter set, the photodetector, the power module, the micro-porous plate, the light path assembly, the optical fiber, the sensor, and the wireless transmission module, thereby forming a whole structure.

Referring to fig. 1, different excitation light wavelengths are set through the control software, different filter sets are selected through the control structure inside the control software, so that photometric measurement of different samples is achieved, input of the touch screen is fed back to the control software, set parameters can be used for controlling a light source system and a control circuit, the positions of parts of the micro-porous plates are selected for measurement, the positions are stored as parameters, the micro-porous plates can be used after being exported next time, and the flexibility and the practicability of the use of the microplate reader are improved.

The working principle is as follows: when the device is used, a sample to be detected is placed on a microporous plate, light waves emitted by a light source system are changed into a collimated monochromatic light source through optical filters and other optical devices, the light source is focused on the sample to be detected of a plastic microporous plate, one part of the light waves of the light source system is absorbed by the sample, the other part of the light waves penetrates through the sample and is transmitted to a photoelectric detector in the system, the photoelectric detector converts light signals with different light intensities transmitted by different samples to be detected into electric signals, the electric signals are amplified through a circuit, finally, data are transmitted to a computer or a microprocessor for processing and calculation, finally, different transmitted light intensity results of different samples are displayed to a user in a graphic mode, the samples at multiple positions are detected, and the control circuit arranged in the instrument controls a mechanical structure to drive the movement in the X direction and the Y direction so as to realize the measurement of the samples at different positions of the microporous plate.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a novel ELIASA of touch-control formula, includes microcontroller, touch screen, control software, control circuit, drive circuit, XY displacement mechanism, light source system, filter group, photoelectric detector, power module, micropore board, light path subassembly, optic fibre, sensor, quick-witted case, wireless transmission module and mobile terminal, its characterized in that:

the microcontroller is preloaded with a Linux system and can be matched with control software of the microplate reader;

the touch screen can display a control software interface of the microplate reader and support the operation of the touch screen;

the control software can save the set parameters of the user and can lead the saved set parameters to automatically start the measurement work of the microplate reader, can control the XY displacement mechanism, is matched with the sensor to calibrate the position of the XY displacement mechanism, and can analyze, display and maintain the acquired data.

2. The novel touch microplate reader of claim 1, wherein:

the control circuit can realize the control of the driving circuit by receiving an instruction sent by the microcontroller;

the driving circuit can realize the control of the XY displacement mechanism;

the XY displacement mechanism can move and align different hole sites of the microporous plate to a light path, so that photometric measurement of a sample is realized;

the light source system can provide 400-700nm visible light, so that the illumination requirement on the sample is met;

the optical filter set can filter the light source system into monochromatic light, and the light penetrating through the sample is filtered at the photoelectric detector end;

the photoelectric detector can convert the optical signal into an electric signal and perform corresponding amplification and filtering processing;

the power supply module can supply power to the microcontroller, the touch screen, the control circuit, the driving circuit, the light source system and the sensor;

the micro-porous plate is used for placing a sample required by the test;

the light path component and the optical fiber are used for guiding light which penetrates through the sample into the photoelectric detector;

the sensor is used for detecting whether the XY displacement mechanism reaches a specified position;

the wireless transmission module can transmit data information to the mobile terminal.

3. The novel touch microplate reader of claim 2, wherein: the case connects the microcontroller, the touch screen, the control circuit, the drive circuit, the XY displacement mechanism, the light source system, the filter set, the photoelectric detector, the power module, the micropore plate, the light path component, the optical fiber, the sensor and the wireless transmission module, thereby forming a whole structure.

4. The novel touch-control microplate reader of claim 2, characterized in that: different excitation light wavelengths are set through the control software, and different filter sets are selected through the control structure inside, so that photometric measurement of different samples is realized.

5. The novel touch-control microplate reader of claim 2, characterized in that: the input of the touch screen is fed back to the control software, and the set parameters can be used for controlling the light source system and the control circuit.

6. The novel touch microplate reader of claim 2, wherein: and measuring by selecting the positions of part of the micropore plates, storing the positions as parameters, and exporting the parameters for use next time.

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